JP2010247148A - Method of coating cement based precast member and cement based precast member coated by the method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a powder painting method of forming a coating film free from defects such as pin holes, crater like unevenness on the surface of a cement based precast member without damaging the property thereof. <P>SOLUTION: The surface of the cement based precast member is coated by electrostatic powder painting through a step of: preheating only the surface layer to 160-190°C by heating the surface of the cement based precast member 1 with an electric heater 7a; a step of forming a paste like coating film 2 by spraying powder paint 4 on the surface of the preheated cement based precast using a coating gun 8 of electrostatic powder system and attracting the powder paint by the heat held by the cement based precast member itself to melt to be close contact with the member; and a step of burning the paste like coating film 2 by re-heating the coating film 2 at 170-185°C by an electric heater 7b; and after that, a step of cooling. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention includes, for example, an extrusion-molded cement board, a lightweight cellular concrete board (ALC board), an unreinforced precast concrete board, a precast concrete board reinforced with reinforcing bars, and a precast concrete having a hollow hole and prestressed by PC steel wire. The present invention relates to a technique for powder coating the surface of a cement-based precast member typified by a plate.

  Powder coating is a method of coating using powder paint (powder particles) formulated with only film-forming components without using organic solvents or water as in liquid paints. It is a painting method that is friendly to the ecosystem and the environment without the emission of VOC (volatile organic compounds), which is a factor.

  Therefore, in recent years, it has been widely used for coating metals such as reinforcing bars, steel plates, and aluminum building materials. Application of powder coating has also been attempted for cement-based precast members such as extruded cement boards and lightweight cellular concrete boards, but the powder coating of cement-based precast members has not yet achieved industrial success. .

  For example, in Patent Document 1, a powder paint is applied to a panel raw material of a lightweight cellular concrete board, and then the panel raw material is subjected to autoclave curing, and the powder paint is heated and cured to be powder coated. A painting method for obtaining a cellular concrete board has been proposed.

  However, with this method, powder coating is applied in the middle of the lightweight aerated concrete board production line, so it is not possible to paint pre-manufactured lightweight aerated concrete board. It is expected that crater-like irregularities are generated in the coating film due to the burst of bubbles due to the moisture contained in the panel raw material.

  Patent Document 2 proposes a method in which electrostatic cutting is applied to a cutting surface of a lightweight cellular concrete plate having a cutting surface, and a recess exposed on the cutting surface is covered with a paint.

  However, in this method, as described in FIG. 4 of Patent Document 2, a high-viscosity paint is sprayed onto the lightweight cellular concrete board with a corona charging type coating gun. Accordingly, the coating material is a mixture of a liquid and a powder coating material (powder particles) whose viscosity is adjusted by adjusting the content to a predetermined content, and evaporation of the liquid component becomes a problem. In addition, a high voltage generator for charging the paint negatively and the object to be coated (lightweight cellular concrete board) positively and their electrical settings are necessary. In addition, problems specific to corona charging such as a decrease in penetration into the recess due to the Faraday cage effect, a decrease in coating efficiency due to a reverse ionization phenomenon associated with the generation of free ions, and generation of pinholes and crater-like irregularities occur. Therefore, at present, it is considered difficult to apply to objects to be coated other than metal, and at least the results of cement-based precast members including lightweight cellular concrete plates have not been reported so far.

  In addition, although patent document 2 does not describe anything about heating and temperature control of the lightweight cellular concrete board which is the object to be coated, after spraying high viscosity paint on the lightweight cellular concrete board with a painting gun, When the entire lightweight cellular concrete board is heated to a temperature necessary for baking the coating film, the properties of the lightweight cellular concrete board are impaired, and the strength is expected to decrease and become tattered.

JP-A-10-194868 JP-A-6-172061

  In view of the above situation, the present invention provides a powder coating method capable of forming a coating film free from defects such as pinholes and crater-like irregularities on the surface of the cement-based precast member without impairing the physical properties of the cement-based precast member. Provides a cemented precast member with a paint finish.

  The technical means taken by the present invention in order to achieve the above object are as follows. That is, the method for coating a cement-based precast member according to the present invention includes a step of preheating only the surface layer portion of the cement-based precast member to a required temperature, and an electrostatic powder type coating gun on the surface of the preheated cement-based precast member. The process of spraying powder paint and drawing the powder paint by the heat held by the cement-based precast member itself to form a paste-like coating film and reheating the paste-like coating film to the required temperature The surface of the cementitious precast member is coated with electrostatic powder through a step of baking the coating film and a cooling step.

  Specifically, as described in claim 2, the surface of the cement-based precast member is preheated to 160 to 190 ° C by heating the surface of the cement-based precast member with an electric heater, and the surface of the preheated cement-based precast member. The powder coating is sprayed on the electrostatic powder type coating gun, the powder coating is drawn by the heat held by the cement-based precast member itself and melted and adhered to form a paste-like coating film, and the paste-like coating The surface of the cementitious precast member is coated with electrostatic powder through a process of baking the coating film by reheating the film to 170 to 185 ° C. with an electric heater and a cooling process.

  Invention of Claim 3 is the coating method of the cement-type precast member of Claim 1 or 2, Comprising: Powder paint is sprayed with the coating powder of an electrostatic powder system, and cement-type precast member itself hold | maintains It is characterized in that the process of forming a paste-like coating film by drawing and melting and adhering the powder paint by heat is repeated a plurality of times.

  Invention of Claim 4 is a coating method of the cement-type precast member in any one of Claims 1-3, Comprising: Before a preheating process, hot air is sprayed on the surface of a cement-type precast member, and surface It has a pretreatment process for removing dust and dust and increasing the surface temperature at the same time.

  Invention of Claim 5 is a coating method of the cement-type precast member in any one of Claims 1-4, Comprising: After cooling the surface temperature by natural cooling, it is forced with cold wind in a cooling process. It is characterized by cooling.

  The invention according to claim 6 is characterized by a cement-based precast member coated by the method according to any one of claims 1 to 5.

  ADVANTAGE OF THE INVENTION According to this invention, the coating film without defects, such as a pinhole and a crater-like unevenness | corrugation, can be formed on the surface of a cement-type precast member, without impairing the physical property of the said cement-type precast member. In other words, the surface of the cement-based precast member preheated to the required temperature is sprayed in a state where only the powder coating is charged by an electrostatic powder type coating gun, and the powder coating is heated by the heat held by the cement-based precast member itself. Is drawn and melt-adhered to form a paste-like coating film, so that defects such as reduction in coating efficiency, pinholes, and occurrence of crater-like irregularities do not occur.

  In particular, since only the surface layer of the cement-based precast member is preheated to the required temperature, the moisture content of the cement-based precast member is reduced to near zero in the surface layer, and the coating film is locally pushed up by the evaporation of water (bubbles). ), And the occurrence of crater-like irregularities due to the bursting of bubbles can be prevented, and the internal thickness of the cement-based precast member and the back side are not so hot, so the physical properties of the cement-based precast member are not impaired. The strength as a precast member can be secured.

  In the invention according to claim 2, since the surface of the cement-based precast member is heated by the electric heater, the radiant heat from the electric heater is blocked by the cement-based precast member having a low thermal conductivity, and only the surface layer portion is 160 to 190. It can be preheated to 0 ° C. and can be controlled so as to rise only to a temperature that can be touched with bare hands on the back side of the cement-based precast member.

  The powder coating sprayed on the surface of the cement-based precast member is melted by the heat of the cement-based precast member itself, becomes a paste, and penetrates into fine bubbles and recesses present on the surface of the cement-based precast member And will be in close contact.

  Powder paint generally melts even at a temperature of about 140 ° C. However, if the preheating temperature on the surface of the cement-based precast member is 160 ° C. or less, moisture in the surface layer portion of the cement-based precast member cannot be completely removed. Bubbles are formed in the coating film, which causes crater-like irregularities. If the preheating temperature on the surface of the cement-based precast member is 190 ° C. or higher, the paint in contact with the surface is burnt and a coating film cannot be formed.

  In addition, the powder coating is melt-adhered with the heat of the cement-based precast member preheated to 160 to 190 ° C. to form a paste-like coating film. Even if it proceeds to the baked state, the surface layer portion of the coating film is pasty. Even if there is a region that proceeds to the state of being baked on the surface layer portion, it will be mixed with a paste-like region.

  In this respect, in the invention described in claim 2, by reheating the paste-like coating film to 170 to 185 ° C. with an electric heater, baking can be performed up to the surface layer portion of the coating film, thereby forming a uniform coating film. Is possible. In this step, when the reheating temperature is 170 ° C. or lower, a so-called “baked sweet” state is obtained, and the strength of the coating film is insufficient, which causes cracking and peeling. In addition, since reheating for baking is performed directly on a paste-like coating film instead of a cement-based precast member, when the reheating temperature is 185 ° C. or higher, the paint burns and the coating film cannot be formed.

  According to the third aspect of the present invention, the powder coating material is sprayed by the electrostatic powder type coating gun, and the powder coating material is drawn and melted and adhered by the heat held by the cement-based precast member itself to form a paste-like coating film. Since the process of forming is repeated a plurality of times, a multi-layered coating film can be formed. That is, when the second layer powder coating is sprayed in the state where the first layer powder coating is melted and adhered by the heat of the cement-based precast member, this powder coating dissolves in the first paste-like coating film. It is possible to form a second-layer coating film firmly bonded to the eye coating film.

  Thus, for example, the first coating layer is used to form a base, the second coating layer is finished in a metallic tone or other color, and the third layer transparent protective coating film is formed thereon. Thus, it is possible to improve weather resistance.

  According to the invention described in claim 4, as the pretreatment step, hot air is blown onto the surface of the cement-based precast member to remove dust and dust on the surface, so that the surface temperature of the cement-based precast member is appropriately increased in advance. In the subsequent preheating step, the surface layer portion of the cement-based precast member can be quickly raised to a predetermined temperature, and the coating process can be speeded up.

  According to the invention of claim 5, in the cooling step, the surface temperature is lowered by natural cooling, and then forced cooling is performed with cold air, so that the coating treatment is performed while avoiding the adverse effect on the coating film due to the sudden temperature drop. Can be speeded up.

  According to the invention described in claim 6, it is possible to realize a sturdy cement-based precast member whose surface is covered with a coating film having no defects such as pinholes and crater-like irregularities.

It is a perspective view which illustrates the cementitious precast member concerning the present invention. It is explanatory drawing of the coating method of a cement type precast member. It is an expanded vertical sectional view of the principal part. It is explanatory drawing of the coating method which shows other embodiment of this invention. It is an expanded vertical sectional view of the principal part.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows an example of a cement-based precast member 1 according to the present invention. As the cement-based precast member 1, an extruded cement board, a lightweight cellular concrete board (ALC board), an unreinforced precast concrete board, a precast concrete board reinforced with reinforcing bars, a hollow hole, and prestressed by PC steel wire Although any of a precast concrete board and the like may be used, in this embodiment, an extruded cement board is adopted as the cement-based precast member 1. A coating film 2 is formed on the surface of the cement-based precast member 1 by electrostatic powder coating.

  As shown in FIG. 2, electrostatic powder coating on the surface of the cement-based precast member 1 is performed continuously or intermittently on a roller conveyor 3 on an unpainted cement-based precast member 1 manufactured in advance through a known manufacturing process. In the horizontal direction. Then, electrostatic powder coating is performed by a pretreatment process shown in FIG. 2 and FIG. 3A, a preheating process shown in FIG. 2 and FIG. 3B, and FIG. The process from the spraying of the powder coating 4 shown in FIG. 2 to the formation of the paste-like coating 2, the baking process of the coating 2 by reheating shown in FIGS. 2 and 3, FIG. 2 and FIG. 3. The cooling step shown in (F) is performed in this order.

  In the pretreatment step, hot air 5 is blown onto the surface of the cement-based precast member 1 to remove dust, dust, and the like 6 on the surface, and at the same time, the surface temperature is raised to an appropriate range (for example, 40 to 100 ° C.). In this way, the surface temperature of the cement-based precast member 1 can be appropriately increased in advance by using hot air to remove surface dust, dust and the like 6, and in the subsequent preheating step, the cement-based precast member 1 The surface layer can be quickly raised to a predetermined temperature, and the coating process can be speeded up.

  In the preheating step, only the surface layer portion is preheated to 160 to 190 ° C. by heating the surface of the cement precast member 1 with a plurality of electric heaters 7 a provided above the transfer path of the cement precast member 1. As a result, the moisture content of the cemented precast member 1 decreases to near zero, but the radiant heat from the electric heater 7a is blocked by the cemented precast member 1 having a low thermal conductivity. The inside of the wall and the back side are not so hot, and the physical properties of the cement-based precast member 1 do not change. Incidentally, although it depends on the plate thickness of the cement-based precast member 1, the back side of the cement-based precast member 1 rises only to a temperature at which it can be touched with bare hands.

  In the next step, as shown in FIGS. 2C and 3C, electrostatic powder is applied to the surface of the cement-based precast member 1 preheated to a predetermined surface temperature (160 to 190 ° C.). The powder paint 3 is sprayed by the body-type paint gun 8, and the powder paint 4 is drawn and melted by the heat held by the cement-based precast member 1 itself, as shown in FIGS. 2D and 3D. The paste-like coating film 2 is formed by closely adhering. That is, the powder coating 4 is melted by the heat stored in the cement-based precast member 1, becomes a paste, and spreads flat on the surface of the cement-based precast member 1 by its own weight. And it penetrate | infiltrates and closely_contact | adheres to the fine bubble and recessed part which exist in the cement-type precast member 1 surface layer part, The paste-like coating film 2 will be formed. As the powder coating material 4, fluorine, ultra-high weather resistance polyester, high weather resistance polyester, polyester, epoxy polyester, or the like is used.

  In the baking step of the coating film 2 by reheating, the pasty coating film 2 is reheated to 170 to 185 ° C. by a plurality of electric heaters 7b provided above the transfer path of the cement-based precast member 1. The coating film 2 is baked. The reheating time is adjusted according to the type of the powder coating 4 and the desired coating thickness. The powder coating 4 is drawn by the heat held by the cement-based precast member 1 itself and melt-adhered to form a paste-like coating film 2, so that the lowermost layer of the coating film 2 in contact with the surface of the cement-based precast member 1 is baked. Even if it proceeds to the applied state, the surface layer portion of the coating film 2 is pasty, and even if there is a region that proceeds to the surface layer portion, it will be mixed with the pasty region. In this state, the paste-like coating film 2 is directly reheated to 170 to 185 ° C. directly by the electric heater 7b, so that the surface layer portion of the coating film 2 can be baked evenly and uniformly hard over the entire surface. The coating film 2 is formed.

  In the cooling step, natural cooling is performed with room temperature air 9a to lower the surface temperature, and then forced cooling is performed with cold air 9b. Therefore, it is possible to speed up the coating process while avoiding an adverse effect on the coating film 2 due to a rapid temperature drop.

  4 and 5 show another embodiment of the present invention. In this embodiment, the electrostatic powder type coating gun 8 is used for the powder between the preheating step shown in FIG. 4B and the baking step of the coating film 2 by reheating shown in FIG. The steps of spraying the coating material 4 and drawing the powder coating material 4 by heat held by the cement-based precast member 1 to form a paste-like coating film 2 by melt-adhering are shown in FIGS. Thus, it is characterized in that it is repeated a plurality of times.

  According to this configuration, the powder coating material 4 is sprayed by the electrostatic powder type coating gun 8, and the powder coating material 4 is drawn and melted and adhered by the heat held by the cement-based precast member 1 itself. Since the process of forming is repeated a plurality of times, a multi-layer coating film 2 can be formed. That is, as shown in FIGS. 4E, 5A, and 5B, the second layer of the powder coating 4 is melted and adhered by the heat of the cement-based precast member 1. When the powder coating 4 is sprayed, the powder coating 4 dissolves into the first paste-like coating film 2 and, as shown in FIG. The eye coating 2 can be formed. In addition, 2a shown to (C) of FIG. 5, (D), (E) is a part which the coating film 2 of the 1st layer and the coating film 2 of the 2nd layer melt-adhered.

  Thus, for example, the first layer 2 is used to form a base, the second layer 2 is finished in a metallic tone or other color, and the third layer is a transparent protective coating. It is possible to increase the weather resistance by forming a film.

  The pretreatment step shown in FIG. 4A, the preheating step shown in FIG. 4B, the baking step of the coating film 2 by reheating shown in FIG. 4G, and the cooling shown in FIG. Since the steps are substantially the same as those of the above-described embodiment, the same reference numerals are given to the same components, and the description thereof is omitted.

  The electrostatic powder-coated cement-based precast member 1 of the present invention is often applied to the outer walls of steel-framed multi-layer buildings, factory buildings, detached houses, etc., but the interior finish walls, partition walls, floor boards Etc. can also be used.

DESCRIPTION OF SYMBOLS 1 Cement-type precast member 2 Coating film 3 Roller conveyor 4 Powder coating 5 Hot air 6 Dust, dust, etc. 7a Electric heater 7b Electric heater 8 Electrostatic powder type coating gun 9a Air at room temperature 9b Cold air

Claims (6)

  A process of preheating only the surface layer of the cement-based precast member to the required temperature, and spraying a powder paint onto the surface of the preheated cement-based precast member with an electrostatic powder type coating gun, and holding the cement-based precast member itself Through the process of drawing the powder paint by heat to make it melt and adhere to form a paste-like coating film, the process of baking the coating film by reheating the paste-like coating film to the required temperature, and the cooling process A method for coating a cement-based precast member, comprising electrostatic powder coating the surface of the cement-based precast member.   The surface of the cement-based precast member is heated with an electric heater to preheat only the surface layer portion to 160 to 190 ° C., and the surface of the preheated cement-based precast member is ground with an electrostatic powder type coating gun. A process of spraying body paint, drawing the powder paint by the heat held by the cement-based precast member itself to form a paste-like coating film, and re-adhering the paste-like coating film to 170-185 ° C. with an electric heater A method for coating a cement-based precast member, wherein the surface of the cement-based precast member is electrostatically powder coated through a step of baking the coating film by heating and a cooling step.   The process of spraying powder paint with an electrostatic powder coating gun, drawing the powder paint with the heat held by the cement-based precast member itself, and fusing it to form a paste-like coating film is repeated multiple times. The method for coating a cement-based precast member according to claim 1 or 2.   Before a preheating process, it has a pretreatment process which raises a surface temperature at the same time as spraying hot air on the surface of a cement system precast member and removing dust and dust on the surface. The coating method of the cement-type precast member of description.   The method for coating a cement-based precast member according to any one of claims 1 to 4, wherein in the cooling step, the surface temperature is lowered by natural cooling and then forced cooling is performed with cold air. A cement-based precast member coated by the method according to claim 1.

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